Dynamical evolution of near-Earth asteroid 1991 VG

TL;DR

This study uses recent data and simulations to analyze the orbital dynamics of asteroid 1991 VG, confirming its natural origin and its past transient capture by Earth, while demonstrating its chaotic long-term evolution.

Contribution

It provides the first detailed dynamical assessment of 1991 VG using updated data and N-body simulations, confirming its natural origin and transient co-orbital behavior.

Findings

1991 VG was briefly captured as a minimoon in 1991-1992

It is not a current co-orbital of Earth

Similar objects like 2001 GP2, 2008 UA202, and 2014 WA366 exist

Abstract

The discovery of 1991 VG on 1991 November 6 attracted an unprecedented amount of attention as it was the first near-Earth object (NEO) ever found on an Earth-like orbit. At that time, it was considered by some as the first representative of a new dynamical class of asteroids, while others argued that an artificial (terrestrial or extraterrestrial) origin was more likely. Over a quarter of a century later, this peculiar NEO has been recently recovered and the new data may help in confirming or ruling out early theories about its origin. Here, we use the latest data to perform an independent assessment of its current dynamical status and short-term orbital evolution. Extensive N-body simulations show that its orbit is chaotic on time-scales longer than a few decades. We confirm that 1991 VG was briefly captured by Earth's gravity as a minimoon during its previous fly-by in 1991-1992; although it has been a recurrent transient co-orbital of the horseshoe type in the past and it will return as such in the future, it is not a present-day co-orbital companion of the Earth. A realistic NEO orbital model predicts that objects like 1991 VG must exist and, consistently, we have found three other NEOs --2001 GP2, 2008 UA202 and 2014 WA366-- which are dynamically similar to 1991 VG. All this evidence confirms that there is no compelling reason to believe that 1991 VG is not natural.